Curtain slot adjusting means to control the exposure time of camera shutters



Feb. 10, 1948. E. s. HINELINE CURTAIN SLOT ADJUSTING MEANS TO CONTROL THE EXPOSURE TIME OF CAMERA SHUTTERS Original Filed March 24, 1944 5 Sheets-Sheet l Feb. 10; 1948.

N mm Qm m Em E. S. HINELINE EXPOSURE TIME OF CAMERA SHUTTERS Original Filed March 24, 1944 CURTAIN SLOT ADJUSTING MEANS TO CONTROL THE Feb. 10, 1948. E. s. HINEUNE ,3

CURTAIN SLOT ADJUSTING MEANS TO CONTROL THE EXPOSURE TIME OF CAMERA SHUTTERS Original Filed March 24, 1944 5 Sheets-Sheet 3 Al I llllillllwilll ISM!!! mun Feb. 10, 1948. E. s. HINELJNE 2,435,835

CURTAIN SLOT ADJUSTING MEANS TO CONTROL THE EXPOSURE TIME OF CAMERA SHUTTERS Original Filed March 24, 1944 5 Sheets-Sheet 4 INVENTOR. EJ302151 fli'nezz'ne Feb. 10, 1948. E. s. HINELINE I 2,435,835

CURTAIN SLOT ADJUSTING MEANS TO CONTROL THE EXPOSURE TIME OF CAMERA SHUTTERS Original Filed March 24, 1944 5 Sheets-Sheet 5 Illlll |ll lllllllNlllll 'Illlllllllulll 40 29 Invenior: Z EdsonaHzm/ezz'ne, a W MAJ-4% i j flii/ ys Patented Feb. 10, 1948 UNITED STATES PATENT OFFICE CURTAIN SLOT ADJUSTING MEANS TO CON- TROL 'IHE EXPOSURE TIME OF CAll/IERA SHUTTERS 'Edson S. Hineline, Rochester, N. Y., assignor to Graflex, 1110., Rochester, N. Y., a corporation of Delaware 20 Claims.

This application is a division of my co-pending application Ser. No. 527,918, filed March 24, 1944, now Patent No. 2,407,277, dated September 10, 1946, which is itself a division of my co-pending application Ser. No. 506,848, filed October 19, 1943, now Patent No. 2,393,534, dated January 22, 1946, for Electric-motor-driven combined camera, focal-plane shutter, and film-feed.

This invention relates to curtain slot adjusting means to control the exposure time of a camera shutter to be used in various types of cameras, but particularly in automatic aerial cameras.

In order that the principal of the invention may be readily understood, I have disclosed a single embodiment thereof in the accompanying drawings, wherein- Fig. 1 is a front elevation of the camera with the lens cone and the mechanism housing cover removed to show the cycling mechanism, the film feed clutch, the exposure counter, the shutter rewind mechanism, the switches for controlling the cycling mechanism and shutter release, and the receptacles for power supply and remote control, the entire mechanism being shown in its-condition when the shutter has been rewound and a new area of film has been fed into position over the exposure opening and the camera is ready for making an exposure;

Fig. 2 is a section through the curtain rollers, the curtains and the exposure plate lengthwise the latter, the shutter curtains being shown in the run-down and capped condition;

Fig. 3 is a view similar to Fig. 2, the curtains having been rewound and the exposure slot or aperture thereof not yet established; Fig. 4 is a view similar to Fig. 2, but showing the curtain exposure slot or aperture established and the curtains in condition for making an exposure;

Fig. 5 is a broken-away detail inv top plan view of the curtains when in the condition shown in Fig. 2;

Fig. 6 is a similar top plan view of the curtains in the condition shown in Fig. 4;

Fig. 7 is a longitudinal section through the curtains showing the exposure slot or aperture, the curtains having just started to run down or acrossthe exposure aperture;

Fig, 8 is a section similar to Fig. 7, the curtains having run down and the exposure slot or aperture being represented as having a greater dimension than the exposure slot or aperture shown in F18. 4; 1

Fig. 9 is' a" horizontal sectional view through the shutter rewind mechanism equipped with means for varying the curtain aperture;

Fig. 10 is a sectional view through the shutter rewind mechanism, the first curtain driving stud having been released from the curtain rewind pawl;

Fig. 11 is a horizontal section through Fig. 9 on the line ll-H thereof;

Fig. 12 is a horizontal section through Fig. 9 on the line l2-l2 thereof, but showing the shutter set for a different speed and with the exposure slot or aperture established;

Fig. 13 is a horizontal section through Fig. 16 on the line l3l3 thereof;

Fig. 14 is a view partly broken away, but similar to Fig. 11, the shutter having been set for a different exposure slot or aperture;

Fig. 15 is a front elevation of the shutter rewind mechanism having incorporated the shutter setting knob, the shutter being set for a speed of .001 of a second, the mechanism being shown with the shutter in the act of being rewound and the driving pawl not yet released;

Fig. 16 is a view similar to Fig, 15, the driving pawl having been released, establishing the exposure slot or aperture in the shutter of a width providing for an exposure of .001 of a second;

Fig. 17 is a view similar to Fig. 16, the shutter setting knob having been removed to show more clearly the construction of the shutter rewind mechanism;

Fig. 18 is a view similar to Fi 17, but with the shutter mechanism in the run-down condition; and

Fig. 19 is a partial vertical section through the camera taken at the right of the curtain rewind rolls and showing the curtain rewind mechanism and the shutter release solenoid on line l9-I9, Fig. 1, but omitting the switch from near the top thereof.

This invention relates to curtain slot adjusting means to control the exposure time of the shutter of a camera that is adapted to many uses, among them the photographing of flight instruments in an airplne in flight, or instruments used in running various tests, such as manometers, and for almost any purpose requiring a self-contained camera that makes an exposure upon the closing of an electric circuit and then automatically restores itself for a second exposure. The camera is also especially adapted for use as an aerial camera particularly when used for certain classes of work such as photographing the smoke given off by a bomb when it explodes upon hitting the ground. The

camera can also be used for regular aerial photographic work. It is perfectly adapted for uses involving setting up a camera in a permanent installation so as tomake photographsat predetermined intervals, the electrical circuit being closed by means of a time clock or any other suitable device. Since the camera is so constructed that lenses of almost anyifocallength" can be used, the camera need not be closeto. the object being photographed. Another use for which this camera is perfectly, adapted is for photographing games, such as baseball games, wherein several of such cameras will be mounted and directed at certain spots, such as the various bases, the pitcher's box, or any other desired area, so that one operator can control any one of the cameras at the proper 'instantbyipushingj a button and closing an electrical'circuit. such uses will serve to point out the versatility ofthis.

camera.

The principal object ofthis inventionis to provide a camera having a self-capping focalplane shutter of a variable exposure aperture type and having means for controlling the width of the opening of such exposure aperture during the time the curtains travel in a picture-making direction.

While the invention is directedto curtain slot adjusting means ofa focal-plane shutter of the two-curtain type, of general application, it is disclosed in connection with automatic cycling means driven by an electric motor and controlled by the operation of the shutter itself, so that after each operation of theshut'ter theca'mera is automatically reset. I willreier only to suck general parts of the camera as are shown in the figures of the drawings and particularly in Figs. 1 and 19, to which andto Figs. 2-to. 8, I-will first refer.

The camera body' is made up mainly. of two parallel spaced plates, one of which is termed the mechanism plate and is indicated at 20 in certain of the figures. Parallel therewith and spaced therefrom by nearly the. width of the camera is another so-called outer plate,-not herein shown; and between the said two'plates normal thereto is a central channel member 22' attached to the mechanism plate 20 and having an exposure slot indicated at 22a, in Fig. 7, being attached by. rivets Hand to the other outer plate by'screws not shown. Positioned" between said plate. 20 and the said other outer plate are partitions 25', 26 01" channel form and. attached to the mechanism plate 2'0'by rivets 21"and to the other outer plate by screws, not shown. Also positioned between the mechanism plate 20 and the other outer plate is a cone support casting of any suitable shape indicatedin dotted lines at 29 in" Fig. 1, which casting is attached to the cone mechanism plate 20 by screws 30, 30 and to the other outer plate in any suitable manner not herein indicated; The mechanism plate 20 is provided with a groove 39 into which the cover member 31 (Fig. 19)' is fitted", and the lens cone casting 29' is. provided with a' similar groove 40" indicated in dotted lines in' Figs. 1 and I9. The'structure. is thus completely light-tight.

To the mechanism plate 20"is' attached a film supportstud' 51, and thereis provided aspring, member 59 carried by the other outer plate for supporting the secondfilm support stud, itself not shown. There is also provideda spring, 61 for the second film spool supportstud', not'shown. Said'springs '9 andBr are riveted to the outer plate opposite the mechanism plate 20 in any suitable manner. A shaft 65 is provided having the usual film spool driving dog not shown, and tothe-opposite end of theshaftfiii as shown in Fig. 1, is a film feed gear 61f Passing through the mechanism plate 20 and the other outer plate is a shaft 12 fitted to the right-hand end of which is abellcrank lever 82 having at the extremelower endiof' the longer arm a lateral extension8'2d. Free to turn on the shaft 12 is a washer 83 separating the pressure pad operating arm M'thatie' riveted to the shaft 12, said arm 84 having an L-shaped end 85 into which is hooked a spring 81, the opposite end whereof is ihooked to'a-spring'support rod 88. Inasmuch as the pressure pad operating arm 84 is securely attachedto the shaft 12, when said pressure pad operating arm- 8'4is turned in a contraclockwise directicnviewing Fig. 1, the pressure plate or pad 56 (Fig. 1) will be caused to be lifted from the sensitized material, and when released theishaft II-will be caused to turn in a clockwise direction, thus applying pressure'to the sensitized material through the tension-.of-spring81. The said" bell crank 82 is provided: with a second arm-Swt-hat engages the L-shaped or turned-over end- 85:0! the pressure pad operating arm 84. Thus-any movement of the'bell crank 82 in-acontraclockiwise direction will cause theshaft ll-also to"-be turned in a contraclockwise direction.

The structure thus far referredto. is that pertaining to the general structure ofthe camera and to the pressure plate or pad mechanism. Obviously my invention is not limited toa camera of the specific structure thus-far described, which has been set forth merely as. one embodiment'of means for supporting those portions ofthe photographic mechanism towhich my invention more particularly applies.

The shutter mechanism-Twill next describe the shutter mechanism which, inthe disclosed embodiment thereof, is motor driven .byan elec-. tric motor within the camer'abody, and which shutter'is disclosed as of 'the two-curtainfocalplane shuttertype providing a variable aperture and which shutter is self-capping. while being wound. In cooperation with the shutter there is provided automatic cycling means controlled by the operation of the shutter itself, so.thatafter each operation the camera is ready forzthe. next operation.

I will describeso' far as thesaniei's shown the specific construction provided for this purpose and in so doing will 'firstrefer' to Figs. 1 and 2 to8; and to Figs. 15 to 19'.

The camera is. provided with a first curtain take-up roller 9! and with a second. curtain takeup roller 92'. Each of the curtains is. provided with the usual tension ro1ler', the first' curtain tension roller being indicatedat 93 and' thesesond curtain tension roller 94. In-Fig. 19, certain of 'the parts are indicated in vertical section, including certain of the parts that are fitted .to the mechanism plate 20. Therein is shown a. bushing 95 through which passes the vshaft 96 of, the second curtain take-up roller 92-, to which shaft is attached a pinionSTrrieshing with the second curtain rewind gear. 3l'6; On the shaft. I 00. of the first curtain take-up roller 91 is attached the first curtain pinion I'O'II whichmeshes withthe first curtain rewind gear 314 which, with the second curtain rewind gear Iifliarev carried on a stud shaft orstud 308, best indicatediin Fig, 19. The said shaft or stud 308 is providedxwitlw a suitable separating collar andhas a reducedrdiameter and a threaded end portion 309. The said shaft or stud passes through the mechanism plate 29 and is securely held thereto by nut 3I0 and locker washer .3II.

There is provided a second curtain rewind latch or dog plate 3| 9 attached to the second curtain rewind gear 3I0, and there is also provided on said plate a shutter release for dog 333 (shown in Figs. 1 and 11 to 14, hereinafter more fully referred to) which performs the function of the pin II6 of said parent application Ser. No. 527,918, There is also provided a main shutter gear II1 having a suitable bushing, and attached to said shutter gear H1 is a driving plate H8, shown in Figs. 9 and 10, to which is attached the shutter rewind clutch member H9 by suitable rivets. The said second curtain rewind gear 3I0 and the first curtain rewind gear 3I4 and the main shutter rewind gear II1 are all carried upon the same stud 308, best shown in Figs. 9 and 19.

. In the particular type of camera herein dis-v closed in part, there is provided an electric motor of a conventional type procurable on the open market, but having a speed reducing transmission built thereon. Such a motor is diagrammatically indicated at I23, being attached to the inner face of the mechanism plate 20 by screws I24, I24. Suitably supported, there is provided a film feed drive gear I43, an interrupted gear I44 and a cam plate I46. There is also provided, supported upon a suitable shaft, a crank member I41 provided with a pin I48 securely attached with other parts to a suitable shaft by a large head screw I49, so that by loosening the screw I49 the crank member I41 can be adjusted circumferentially upon its shaft, and when the proper position is found the crank member and other parts there supported are clamped in place by means of said screw I49.

The film feed drive gear I43 meshes with the film feed clutch gear I50, and the interrupted gear I44 co-acts with a second interrupted gear I5I, so as to provide an interrupted motion to the shutter rewind mechanism. Fitted to the mechanism plate 20 is a stud, not shown, having at its end a large head screw I56. Attached to the interrupted gear I5I is a drive gear I51. A suitable stud provides a bearing for a dial for counting the number of exposures upon the film, to which dial brief reference will now be made. There is also provided a bushing having a press fit in an idler gear I61. There is provided a knob I68 to which is attached the counter dial I69 of saucer-like formation, and a ratchet wheel I10. The said counter dial I69 is provided witha series of numbers I15, shown in Fig. 1, corresponding to the number of exposures that has been made. There is also fitted to the mechanism plate 20 a stud having a head I11, and upon said stud between the head I11 and a suitable washer is a bushing free to turn on such stud but having a press fit in a second idler gear I04 which meshes with the main shutter rewind gear II1 for rewinding the shutter curtains.

Shoulder rivets I93, I93 are shown for securing in position certain parts pertaining to a clutch member and interclutch member, not shown. The film feed clutch gear I50 runs'on the outer. surface of such interclutchmember and meshes with the film feed drive gear I43. There is also provided a ratchet plate I94 suit+ ably supported and provided with studs I95; I95 passing therethrough and engaging clutch rollers, not shown. The interclutch member, not itself shown, is provided with usual notches I99, shown in dotted lines in Fig. 1. Connecting the shoulder rivets I93, I95 are springs 200. Inasmuch as the shoulder rivets I93 are permanently attached to such interclutch member, and the shoulder rivets I95 are securely attached to ratchet wheel I94, the said springs 200 will cause the said ratchet plate I94 to be turned in a clockwise direction, thereby causing the referred to rollers to engage the bore of the film feed clutch gear I50. If such latter gear I50 is caused to be turned in a clockwise direction, such rollers will be caused to move in a clockwise direction, thus wedging between said interclutch member and the bore of the film feed clutch gear I50, thereby causing the interclutch member to be turned in a clockwise direction. If, however, the teeth of the ratchet plate I94 are engaged and prevented from moving, such rollers will be prevented from moving in a clockwise direction, thus releasing them from engagement with the bore of the said film feed clutch gear I50. When the said ratchet wheel or plate I94 is released, the springs 200 will again cause such rollers to be moved in a clockwise direction and such interclutch member will be driven by such rollers and the film feed clutch gearv I50.

On the mechanism plate 20 is a stud having attached thereto a bushing to which is riveted a film feed clutch bell crank 203 held to the stud by a shoulder screw 204 and having a formation for engaging the pin I48 previously referred to as provided on the crank member I41. The pur--' pose of the pin I48 will be more fully set forth subsequently.

The upper arm of the bell crank lever 203 is provided with a dog 206 to engage the teeth of the ratchet plate I94, and on the extreme upper end of the bell crank 203 is a finger-like extension 201 for engaging a suitable notch of a film measuring cam 5I When the finger 201 of the bell crank 203 is held out of such notch of said film measuring cam, the ratchet plate I94 will be allowed to rotate, thus causing the film clutch drive gear, not shown, to be driven through the clutch members previously referred to. Since the said clutch drive gear is in mesh with the film feed gear 61, the film spool will be caused to rotate in a contraclockwise direction, winding the film until the clutch drive ear is again stopped.

The electric switches-I will next refer sufficently to certain electrical switches and cooperating parts by which not only the feed of the film is controlled but also the operation of the shutter, and-in doing so will refer to Fig. 1. To the mechanism plate 20 is attached a switch support plate 2I0 by means of rivets 2H, 2H, and to said switch support plate 2I0 is attached a switch 2I2, being a standard switch of any one of several different acceptable types. Herein for the purpose I have illustrated a switch known in the trade as the Acre switch, which is attached to the switch support plate by screws 2I3, 2I3. The said switch 2| 2 is provided with contacts 2 I4, 2I5 and 2I6. The contact 2I6 is carried on a spring 2 I1 actuated by a semi-circular spring 2 I8 through a short flat spring 2I9 and pin 220.

When the said pin 220 is moved in an upward direction viewing Fig. 1, the position of the semicircular spring 2I8 is changed, thus altering the center of effort, causing the spring 2I1 to be moved downward, thus closing the contacts 2I6 2I9. thus again changing the center of effort of.

spring-'2 I 8 and causing: thespring: 2I1' tolbe moved in tin-upward direction. thus. causing the meet. ing ofcontacts 2 I 4 and 218.

Thesaid. switch 212 isactuated: by the-belt crank. 82, previously described; which is:provided for the purpose with an arm22JI having a turned over end 222-for co-acting with the pin 2201. The said bell crank 82 is acted: upon by the cam-plate: I46, previously described; through the finger IiZ' t of said bell crank 32', when the filmieed drive gear l43-is rotated.

Attachedto thesaid mechanism plate 20 is the second switch support-plate 223, by means of'r-iv ets 224 and attached to the saidsupport-plate is a switch 225=of structurepreferably similar to the switch 2I2-excepting that it is=provided with contacts'226, 22! only. The said switch-2251s alsoprovided with a similar semicircular spring 228, a contact spring 229, a, short actuating-spring: 230 and an operating pin 23-I. The-said 'switch 225-is attached to the switch support plate 223 by screws 2'32, 232.

Switch operating mechanism-4'will'sufficient- 1y describe the switch operating mechanism forthe electrical circuit controlling-the shutter and him feeding means,- and for that purpose I will refer to Fig, 1 and also to Fig. 19:

Mounted upon the said mechanism plate 20-is a switch operatinglever 233 pivoted on a stud 234 on said plate, said operating lever being-securely held-upon suchstud- 234-, soas freely to rotate thereon, bymeans-of a large head screw 234a,, and said operating-lever is provided-with a notch 235 to limit its motion, said-notchco acting with a pin 236 on the mechanism plate The said switchoperating lever is moved in a clockwise direction' by a spring 23'! fittedover a stud 238 attachedto the said operating lever and pressin against the switch housing of the switch 2-255 The said switchoperating lever 233serves both as a switch operating lever and also as a" shutter run-downstop lever; it being engaged by -saiddog-333 on the latch or dog plate 319 attached to the second curtain rewind gear-3rd when the shutter is released and runs all the'wa-y down, as will be-morefully described, thuslimiting the motion of the said second curtain rewind gear 3l 6. At the-same time said lever 233-'causes the conmots-226, 2-21' to beclosed, thus-completing the circuit to the motor-ina manner sufficiently described-subsequently.

There is attached to the-lower end of the-bell crank 1ever82-a short L-shaped arm--239'by means of -a shoulder rivet 240; the said L-shaped arm being caused t'o be rotated in acontraclockwisedirection bymeans not/shown; When the bellcrank 82'- iscaused to be turned to the right or contraclockwise by the 0am I 465 theteeth of ratchet wheel nowill be engaged-,. thus causing the exposure'counter dial" I'GStobe rotated in-a.

contraclockwise direction; Referring: to =F'ig: 1-9, attached to the mechanism plate ZD' i'sa bushing: 243' throughwhich passes :a shaft: Zfl having: a reduced diameter indicatedin dotted lines at:245; and to which is. fittedahub. 24.6.? having a crankarm 2.41., a, shoulder screw 24B: servingtouattachi both parts to. the shaft 244,. the opposite end whereof has. anenlarged diameter 249Jto. whiclr is: attached a shutter release: leverv 256; engaging; the dog. 333 when; the. shutter; is fully wound:

Attached to the mechanism: plate. .29. .is.=-;a.mag'r-. neticsolenoid 25I by means .0f;a s tr.ap 252:.bolts; 2531and1111ts254. The said. solenoidhastheusual? plun er or;- armature. shown. in. dotted lines. in. m first:curtainytakerun.roller.3I; alsatohe-tumed:

III

Fig, 1 and indicatedat-izii whichis-provided with, anenlarged collar 258- between. whicirand the:- solenoid housing is a: spiral spring 251;:causinzs the armature to movetoxtheright viewing. Fig; 1,

1 the right-hand end of said armature being: provided 'with :a hoolcmembennai having-a. slot- 259. Securely: attached to. saidcrankarm 2'41 (F'ig'; 19 is'a pin 26!! which is acted upon'by the-hook member 258 when the-solenoid! is'energized." A stop-pin 261- is provided on the mechanism plate 20, and thereisal'so provided acooperating'protruding lip-262-on thesaid crank-arm 241. When the circuit isbroken; the spring- 251 causes the solenoid plunger or armature to be moved asufficient distance to the right viewing-Fig. 1-, co-acting with thecollarli to that end;

The shutter curt'ainrollers-I have previously described the structure: of the two-curtain-shutter excepting as tocertain details of thetension-rollers-and. take-up rollers thereof; which will be sufliciently described for the-pubpose of the present invention. The spring tension-roller 9'3 for'the firstcurtain-and the-"springtension roller 94 for the second curtain are identicai in construction. Fitted into ahole provided therefor in -the mechanism plate 204s ashaft 2-63 extending through the tension roller 94 and throughthe outer-plate-parallel= to the shutter plate- 20- andsecurely locked= thereto by means not'shown. The'tension rollers-93*and-9 4* are provided with bushings oneither end.- Each such bushing on the-right-hand' endis provided; with-a hole through-whichpasscs' the end of a tension spring-268; thusiockingone endof said, spring to-the proper tension roller; The opposite end ofsaid tension spring 26Bi'is, anchored to the shaft 263',- butis not hercin shown.

The two-curtainshutter movements-1' will nowdescribe the shutter. andfor that? purpose I will refer to Figs.v 2 tot! showing-the two on:- tains in longitudinal section-and in: plan.

Attached tothe first curtain tension roller 33- and-partly wound-thereon and attached also tothe first curtain take-up roller Si isthe: first curtain 211- provided-with an exposure-slot or opening 212 andhaving the, usual struts 2'13; 213; Attached" to the second curtain" tension roller 94-and partly wound thereon is a second curtain 274- 'which at" its opposite end is. attachedto the sccond-curt'aintakc-up roller 32;

The said second curtain 214-is provided with an,

second curtain rewind gear 316 by-mcansofthe Whenthe second and 1 first curtain;

pinion $7. rewind -gears-31$ and a I4' respectively are caused to be turned in a I centracloclcwise direction, the

said take-up curtain rollers 91 and 32 will-be: caused to turn'ina clockwise direction; thuswinding' said'first andsecond curtains-2H, 214" upon-their respective-tensionrollers 93* and 94-.-

As shown in Figs: 9 and 10 and referring also to Figs. 11 and l-2, the main shutter rewind-gear H1 is caused to;.be'- turned in a contraclockwise direction; carrying with-it the-driving plate I I8 and the. shutter: clutch rewindmember- I I 9. The

endf-ofithe shutter-rewind clutch H'Ba wiil engage the; stud 326" of the first curtain rewind-'- gear; 3M2, causing. it; to bet-turned in-a contra-- clockwise direction, causingthepinion- I301 tobe tumcdi in..a.ciockwise;.-direction,. and causing: the,

The second.

ma clockwise direction, thus winding said first curtain 211 on its take-up roller 91. The second curtain rewind gear 316 will also be driven in a contraclockwise direction by reason of an engaging stud 321 of the first curtain rewind gear 314 engaging the dog or latch plate 319, after said first curtain has traveled a distance suificient to cap the second curtain 214, as shown in Fig. 2. The pinion 91 will now be turned in a clockwise direction, thus winding said second curtain 214 on its take-up roller 92 and when the said second curtain reaches the position shown in Fig. 3, the second curtain rewind gear 316 therefore is caused to be disengaged from the stud by reason of the cam plate 211 (Figs. 9, 10, 15 to 18) attached to the mechanism plate 20.

As the main shutter rewind gear 1 11 continues to turn in a clockwise direction, the curved end 11% of the shutter rewind clutch member 119 will ride along the under face of the cam 211, thus disengaging the end 119a of said clutch member from stud 326, but just previous to such disengagement the dog'333 has moved past the end of the shutter release lever 259 (best shown in Figs; 1 and 11), thus preventing the second curtain rewind gear 316 from turning in a clockwise direction when said stud 326 becomes disengaged from the shutter rewind clutch member 119, so that the first curtain rewind gear 314 will be permitted to turn in a clockwise direction until said stud 326 engages a stud 330 of the shutter setting knob 321 that extends through the second curtain rewind gear 316, thus preventing further movement of the first curtain rewind gear 314 in a clockwise direction. The two curtains will now be in the position shown in Fig. 4, with the exposure opening A formed between said two curtains.

It will be evident from the drawings and from the foregoing description that the curtain aperture is determined through the manipulation of the second curtain. The curtain slot is established at the completion of the rewinding of the shutter, as shown in Fig. 4, and the position of the struts 213, 216 is under controlthat is, their rate of movement is in control with respect to each other throughout the exposure regardless of the initial separation of struts 213, 216. Both curtains continue to travel across the exposure opening of the camera and are stopped together after they have made a complete exposure and are not capped until the commencement of the rewinding cycle. This is because the second curtain is caused to move first, and then the first curtain is picked up. After the apertures have been capped, the curtains travel across the exposure opening in the capped condition, and when the shutter reaches a point just before being fully rewound, the first curtain is released and allowed to run in a direction toward an exposure opening, and thereby establishes the curtain aperture. Both curtains always travel exactly the same distance in each half cycle; that is, both curtains travel together when released for making an exposure, throughout that exposure, and are stopped together.

The focal plane shutter herein disclosed is made up of two curtains, each having an aperture that together form an exposure aperture when the shutter curtains are traveling in one direction, and said apertures are so spaced when the curtain isrewound as to constitute self-capping means and herein, during the rewinding cycle of the shutter, both curtains are wound up together in a light-tight condition until both the curtain apertures have traveled past the exposure opening of the camera in rewinding and then. as stated, just before the rewinding is completed, the first curtain is released and allowed to run back a certain predetermined distance, thus forming the exposure aperture by having the two curtain apertures in alignment.

This has never been accomplished in the prior art, which at the most discloses a two-curtain shutter wherein, when making an exposure, the curtain aperture is established when rewinding the curtain by causing the second curtain to stop and allowing the first curtain to continue winding until a slot is established, end it is held in that position until both curtains are released, whereupon they start to travel across the exposure opening, and when the second curtain strut has passed the camera exposure opening, that curtain is stopped but the first curtain continues to travel past the exposure opening of the camera and past the strut of the second curtain, thus capping the shutter. Such a construction provides no control of the curtain aperture except for a very narrow slot, and such construction would be ineffective for wider slots or.for a full aperture slot such as used for slow exposures.

The shutter disclosed herein is capable of operating at very high speeds, particularly because when the shutter runs down, nothing rotates except the pinions 91, 101 and their drive gears 314, 316, as such gears are wholly disconnected from the main rewind gear 111 when making an exposure.

A resume of the two-curtain shutter movements is as follows, reference being made to Figs. 1 to 8. The first curtain 211 has an aperture 212 and a rewinding roller shaft having a pinion 191 meshing with the rewinding gear 314. The second curtain 214 has an aperture 215, a rewind shaft 96 carrying a second curtain rewind roller 92 and has a pinion 91 meshing with the second curtain rewind gear 316.- Said gear 316 is prevented from turning in a clockwise direction by shutter release lever 256 and the dog 333 on dog or latch plate 319 (Figs. 11 and 14) fast to said rewind gear 316, and the rewind gear 314 is prevented from turning in a clockwise direction because of pin 3311 of the shutter setting knob 321 engaging pin 321 of the rewind gear 314, as subsequently explained. Since the curtain rollers are driven by the gears just referred to, they too will be held from turning. To make an exposure, shutter release lever 2511 is disengaged from the dog 333 on the dog or latchplate 319 fast to the second curtain rewind gear 316, allowing it to turn clockwise. This will also allow said first curtain rewind gear 314 to turn. both gears turning in a clockwise direction. Said first curtain gear 314 cannot turn faster than the said second curtain gear 316 because the pin 321 of said first curtain rewind rewind gear 314 cannot pass the pin 330 of the shutter setting knob 321 extending through the gear 316, and since first curtain 211 isprovided with a slightly higher spring tension than second curtain 214, the said pin 321 will be held in contact with the other pin 330 throughout the exposure travel. When the curtain is fully run down, the second curtain gear 319 will be stopped through dog 333 engaging lever 233, shown in Fig. 1, and of course the first curtain 211 will also be stopped by reason of said interengaging pins. In rewinding, the main rewind gear 111 is caused to be rotated in a contraclockwise direction. Said first curtain rewind gear 314 will be caused to be rc-tated'in a contraclockwise direction through the clutch member 419, and such rewind gear' 3I'4 willcontinue to rotate, carrying with it .pin 32 'l, and when such pin-engages the end of the notch in dog or latch -plate3 l'9 fast with the second curtain rewind gear '3-|'6,"it too'will'be caused to turn as subsequently explained', 'but while said first curtain rewindgear' 3l 4 was-turning through thatpart of a revolution represented bythe spacing of the pins referred to, the first curtain 2'" will have been moved sufficiently 'far to cap the exposure opening. Both the second curtain rewind gear'3l'B and '-'the first curtain rewind gear 3H willcontinu'e to rotate until the dog 333 has been engaged by shutter release lever 25!) and at substantially the'same time the clutch member H'9 will, as'hereinafter morefully explained, he disengaged 'from 'pin 326 of the first curtain rewind gear 3l'4, thus'preventing forward-movement of either of said rewind gears in a contraclock-wise direction. 1 Said iirst curtain rewind gear '3 will now be caused to 'turn in a clockwise direction'under' theiniiuence-oi:thelfirst curtain tension roller and -will continue to rotate in a clockwisedirection'until stopped by pin-321 of such rewind'gear 3M engaging pin 330 of'the shuttersetting knob 32 l. 'This'movement is suffiient toallowthe first curtainaperture'to travel far enough over the second curtain :aperture to establish the exposure aperture in 'the pair of curtains. 'Theshutter is'now ready 'forits second exposure. Both curtain rewind gears 3 l 6,23 14 and both curtain rewind rollers 9 I, 92 always turn thesame amount when the shutter is rewound, butthe first curtain rewind roller is allowed to make -'an initial rotation in -a curtain-rundown direction just after it has been fully rewound.

"When the shutterrelease lever 250 is operated by the solenoid magnet' 25l, previously referred to, the said dog 333 will be disengaged-by the shutter release -lever"25'!!, a'llowing'both cur-' tain rewind gears- 3l5, 3|'4'-to turn in aclockwise direction, and pins pertaining thereto will remain 'in contact until the said dog 333 is stopped from further movement by the switch operatin lever 233.

'Then-'the main'shutter rewind gear 1 l1 isagain caused to be turned ina contraclockwise-direction, resulting in winding the first curtain 2H into the position'shownin Fig.2, in which position said first curtain caps the exposure slot or aperture 2l5o'f'the second curtain 214," which reciprocally caps the exposureslot oraperture 212 of the first curtain Z'H "with the result that the second curtain 2'14 will :be drivenuntil. the. main shutter rewind gear 'l l l makes a complete revolution, and-before the'end of such complete'revolution,"the"shutter rewind member H9 '(Figs. 9 and 10) :is disen'ga'ged from the pini325 through the'action of thecamplate'ZTl.

It i will be noted that the lfirst curtain take-up roller' 9'l is of a somewhat larger diameter than the second curtain take-up rollerzSZ. This is for the purpose of allowing th'e Jfirst curtaindltito :move at a-slightly:greaterrate'thanthe second *curtain 'zll'so -'as'-to allow-the aperture A,-as.indicatedinFig. 7, toincrease :as the two curtains travel across-theexposure opening ofzthe camera.

'In'Fig,'7,-the'exposure slot or aperture formed at A at the-start-of the curtain travel ls-of less dimension in its direction of travel than the'exposure slot or apertureformed at B (Fig. 8), *when the two curtainsapproach theend10f their travel across the said exposure opening of the camera. This is to compensate for curtain acceloration, -In other words, exposure time is dependent upon the width of the exposure slot or aperture and curtain speed, and since-all shutter curtains accelerate in their travel from the curtain take-up roller to the curtain'tension roller, it is necessary to provide means for compensating for this decreasing exposure speed. This raccomplish by slightly increasing the width :ofth'e exposure slot oraperture A to the width indicated at B.

The camera cycle.Referring 'to Fig. 1, ;I will sufiiciently describe the cycle -'0f:the camera when using the curtain :rshutter mechanism rand -the control therefor justl described. li'I'huslfarJIhave referred to a shutter mechanism havingiprovision for one width 'only of the exposureslot or aperture. While this is ":entirely satisfactory for 'a. great nurnber of uses of the camera herein disclosed,for other uses of the camera it is necessary to be able to changethe shutter exposure aperturetso as .to provide agreater range of shutter speed, but the camera :cycle is innoway changed when using the .shutter with provision forichanging the'apertureexposure'wldth thereof.

InlFig. 1, thexcamera mechanism'ls shown in condition for making aniexposure under the control of the electric circuit 'of the camera. The

two-curtain shutter in the position of the parts astshowntinFig'l has been fully rewound and is heldin'position formakingan exposure by means of thet-shutter release lever 250-and the dog'333. The switchl225 .is in open condition because the switchioperating lever 233 hasbeen moved'to the right, viewing "Fig.1, :by the spring 231, 'and the switch2l2 is in condition to complete acircuit from a'reoeptacle 215 that, as shown in Fig. l, is attached to the mechanismplate- 20 by means ofscrews 280, 280, inasmuch'as'the arm 22l'ot the bell crank-'82 hasbeen movedawayfrom the switch pin 22!], thus allowing the contacts 1 and "2H5 to be closed. The shutter will now be caused to operate it the :external switch (not shown) .is closed, which switch can be located anywhere convenient to the operator and ifdesired'within or upon the camera itself. The complete wiring circuit is not shown in thisapplication, Parts thereof not already referred to, are indicated as'follows,namely, a'terminal 286 of a receptacle 28! held to the .mechanism'plate 20 by screws 288. One side of the battery (not shown) is connected to a terminal '294 of the receptacle -28-!. There 'isalso shown atone side of the solenoid 25! a connection-totheterminal 302 of the said receptacle 219,

When the mechanism is in the position of-parts shown in Fig. .1, switch=contacts-226 and-221 of switch 225 will-bein open condition, andthe contacts ZM and 216 will be in closed condition. Therefore no current will flow to the motor, but when the'external switch (not shown) is c osed,

:currentwill flow so-that the-solenoid 25! will now :lowerend of the switch operatinglever-233 -caus :ingtherswitch 225 to be operated, thereby closing :contacts 226 and 221. through :the' wires or elements of thecircuit- (not shown).

Current will now flow .iThe tcycle of operation of :themechanism con- ..trolling .the shutter rewind and: the film-The 13 electric motor I23 will now start to operate and through its speed reducing mechanism previously referred to, it will drive the interrupted gear I44 in a contraclockwise direction until the teeth thereof engage the teeth of the second interrupted gear I I, at which time the drive gear I51 will be turned in a clockwise direction and the idler gear I6! will be turned in a contraclockwise direction. The intermediate gear I84 will be turned in a clockwise direction and the main shutter rewind gear I" in a contraclockwise direction, thereby rewinding the two-curtain shutter in the manner previously described. Soon after the said interrupted toothed gear I44 starts to rotate, the nose 82a of the bell crank 82 will be acted upon by the cam I46, causing the said bell crank 82 to be moved, which movement in a contraclockwise direction causes switch operating pin 220 of the switch 2l2 to be operated, thereby opening the contacts 2I4 and 2; and breaking the circuit to the shutter release solenoid 25I and closing the contacts 2I5, 2I6, which are shunted around the contacts 226 and 221 of the switch 225. This continues the circuit to the motor after the second curtain rewind gear 3I6 starts to rotate in a contraclockwise direction, thus carrying with it the dog 333 from contact with the switch operating lever 233. The switch contacts 226 and 221 will then be caused to open by the spring 231 and the electric motor I23 will continue to operate until the interrupted toothed gear I44 has made a complete revolution, at which time the nose 82a of the bell crank lever 82 will drop off the cam I46,

thus allowing the bell crank lever 82 to move to the left (that is, in a clockwise direction, viewing Fig. 1) and allowing the switch operating pin 220 to move in a downward direction, causing the contacts 2I5 and 2H; to be opened. thus stopping the motor. This completes the shutter rewind cycle.

At the commencement of the said cycle, the pin I48 carried on the crank member I41 is caused to turn in a contraclockwise direction, thus acting upon a cam-shaped formation of the bell crank 203, causing the latter to be turned in a contraclockwise direction and at the same time withdrawing the pawl 205 from the teeth of the ratchet wheel I94. The film feed clutch gear I50 will now be caused to be driven clockwise through the film feed clutch means, turning said film feed gear 61 contraclockwise, thus winding the film on the film take-up spool positioned on shaft 65. Film will be drawn off the spool that is placed upon the studs, one of which is shown at 51.

When sufiicient film has passed over the surface of the measuring roll, the notch of the measuring cam 5| will reach the position shown in Fig. 1, wherein the L-shaped finger-like member 201 of the bell crank 203 will drop into such notch, thus allowing the bell crank 203 to be rotated in a clockwise direction. The pawl 206 will engage the teeth of the ratchet gear or plate I94, thus disengaging the film feed clutch gear I50 (Fig. 1), and no further film will be wound on the film take-up spool.

A complete cycle of operation has now taken place in the course of which the shutter has been released and has run down, the motor has been energized, the shutter has been completely rewound, and a new area of film has been fed into place. As the bell crank 82 .was first moved to the right and then to the left viewing Fig. 1, the ratchet wheel I will have been caused to move r 4 a distance equal to one tooth'of said ratchet Wheel, thus advancing the film counter-dial one numeral, the film counter-dial previously having been set to the letter S (not shown) when a new supply of film was placed in the camera. This can be readily done by rotating the knob I68 in a contraclockwise direction until the letter S appears in the window. The letter S" is used upon the camera in place of zero to signal the start of the first exposure.

The foregoing disclosure is of a photographic camera provided with a two-curtain shutter without the provision of means for changing the exposure slot or aperture for the purpose of making exposures having definite exposure timing. It is often desirable in a camera of this type to have means for changing the size of the exposure aperture in the picture-taking direction of movement of the shutter. I will now describe one embodiment of means for accomplishing this purpose, shown in Figs. 9 to 19, but to which mechanism my invention is not restricted.

The mechanism for changing the shutter ea:- posure aperture.-Referring first to Figs. 9, 10 and 19, there is attached to the mechanism plate 20 the stud 308 having a reduced diameter portion 309 threaded as shown and receiving the nut 3I0 and the lock washer 3II. Fitted over the said stud 308 is an enlarged collar 3I2 serving to space the shutter rewind gear I I1 from the said mechanism plate 20. The said main shutter rewind gear I II, the disk H8 and the clutch II9 need no further description at this point. Integral with said stud 308 is an enlarged flange 3I3 serving to hold said main shutter rewind gear H1 and the disk II8 to the mechanism plate 20. Fitted over said stud 308 is the first curtain rewind gear 3I4 having a hub 3I5, and also fitted over the said stud 308 is the second curtain rewind gear 3I6 having a hub 3II, both said ourtain rewind gears being held in place on said stud 308 by a large head screw 3I8. Attached to the said second curtain rewind gear 3"; is the previously mentioned latch plate 3I9, by means of rivets 320, 320. I

Fitted to the gear hub 3|! is a shutter setting knob 32I provided with an enlarged diameter 322 and a knurled diameter 323, said knob being caused to be moved toward the second curtain rewind gear 3I6 by spring 324, one end whereof rests against the spring retainer plate 325 attached to the hub 3| 1.

The first curtain rewind gear 3I4 is provided with a drive pin 326 for engaging the shutter rewind clutch member or latch plate 3I9. as previously described, and said gear 3I4 is also provided with a second pin 32'! extending through a notch 328 in the latch plate 3I9 and partially through a segmentally shaped opening 329 in the said second curtain rewind gear 3I6. The knob 32I is provided with a pin 330 also passing through the said segmental opening 329 of the second curtain rewind gear 3l6, and into the slot 328 of the latch plate 3I9. 'The knob 32I is provided with a pin 33I (shown in dotted lines in Fig, 9 and in solid lines in Fig. 13), said pin 33I engaging any one of a series of holes 332 in said second curtain rewind gear 3I6, one of said holes being shown in section (Fig. 13) and all the said holes being shown in Figs. 17 and 18.

The operation of the shutter having the described provision for changing the area of the exposure aperture is as follows: The said main shutter rewind gear II! is caused to be turned in a contraclockwise direction, turning with it the driving plate 113 and the shutter rewind clutch member 1 1 9:having adriveend 119a that engages thezdrive pin 326-ofthe first curtain rewind gear 314 which :isthencaused to be turned in a contraclockwise direction; viewing Fig. 15, carrying with it .pin 32'! which will turn in a contraclockwise direction in the segmental opening 329 of the second curtain rewindgear 316, and in the slot 328 of the latch plate 319 until the pin 32! reaches the end of the-said segmental opening 329.

Thesaidzsecond' curtain rewind gear 316 and the latch plate 319--willnow be turned in a contraclockwise direction until the dog 333 of the latch.:p1ate;3:19 passes the shutter release lever 25!],- at which time the shutter rewind clutch member 1.19 will bedisengaged from the pin 326 by, means of camplate 211, as previously described; The said'second curtain rewind gear 3 16 willithen-be allowed to turn slightly in a clockwise direction until tthet-dog :333 isengaged by the shutter release lever- 251i, and the first curtain rewind "gear 314 will turnina clockwise direction until the1pin321 i stopped'from moving further in .aclockwisedirection =by'the pin 33o attached to 'theshutter setting knob 321. An exposure slot or aperture is now-established in the curtain structure for making an exposure.

Referring 'toFigs 1.7 and 18, if "th pin 331 of the shutter setting-knob321 is moved to engage a difierent-hole 332 in the second curtain rewind gear; 316,1theposition ofzthe pin 330'will occurrespondingiychanged, as shown in Fig; 14, wherein pin 33!] has been :moved, all'the. way in "a clockwise direction, -thusallowingthe greatest possible traveller the pin 3-21 and :the first curtain rewind gear 31 i, thereby-establishing the greatest possibledimension of therexposure slot or aperture of theshutter. If the pin 331 wer fitted in one Ofi'lillEOfihBl hole 332; the pin 32'! and the'first curtain rewind gear314-could not rotate so far in aclockwise direction and in such case there would be established an exposure slot or aperture of a narrowerwidth.

It will be readily understood that the second curtain rewind gear 316 may be provided "with any number TOf holes 332 for engaging th pin 331 of the knob321,'thus-pr0viding meansfor obtaining any number-of exposure slotor aperture widths in the shutter curtain structure.

It will be assumed that the shutter is in a wound-up condition ready for making an exposure. The shutter release lever 25!! will be caused to operate'in the manner previously described, thus disengaging. the dog 333 ofthe latch plate 319. Both shutter rewind gears 314 and 318 will now be allowed to turn a. clockwise direction, thus allowing the pinions Bland 101 to turn in a'contraclockwise direction, thereby causing th said shutter-'curtainszl1 and 274 to travel across the exposureopening of-the-camera. When the said shutter curtains run all the way down, the said second curtain rewind gear 316 will be stopped from iurthermovement because the dog 333 will be engaged by the switch operating lever 233.

By providing graduations on the shutter setting'knob plate -334,as.indicated in Fig. 1 by the numerals 250, 500, 100.0 and the index marker 335Ion theshutter spring retaining plate325, any selected exposure aperture can be secured by causing theknob 321 to be moved in a left-hand direction (viewing Fig. 19), thus. disengagingthe P111331 from thehole-332 in said second curtain rewind gear 316, and thenrotating the knob 321 untilthe indexlmarker 335 is aligned withJJhe proper shutter speed. Thepln 33 1- will then ongage the proper hole 332 in the said shutter curtain :rewindgear3i6. The knob-321 is moved to the right,v Fig. 19 (that .is; in an upward direction a -shown in -.Fig. 13)., by means 'ofthe spring! in order to providethe proper location of. the pin 33!), so as to =CauSethe proper size exposure slot or aperture to -be established by the curtains 1-fora-corresponding exposure speed.-

It has :been stated hereinabove that the cycling means is controlled by the operation of the shutter. In order that 'this'statement may be =fully undersood, the timing and order of movement of the parts will be recapitulated; Theioperation of the shutter from the time-thecontacts=are closed at the control switch until :the cycle is completed has; of course, beenstated, lndescribing'the details of the'structure. A rsum'of the entire :qperation is as follows:

The control "switch is closed thusenergizing the solenoid 25.1. It will be assumed that themecha nism is in the condition shown in Fig.- 1. The shutter release lever 250will be causedht'o turn in a clockwise direction, disengagingdogsi333 allowing rewind -gear 316 and'rewind gear 31l-to rotate ina'clockwise directionunder the influence of pinions '9"! and 1111; thus allowing; the cur tains to move across the exposure 'aperturerin a left-hand direction viewing 1, until the dog 333is-stopped by the operatingilever 233, which at this time will be caused toturn in .a'contraclockwise direction, operatingswitch 225', which will complete a circuit'to the motor 123 causing it tow-revolve, thus turning theinterruptedvgear 144 and film rewind gear 163 lnra-contraclockwise direction; lihe interrupted gear lfl'-will;-'at the proper time, cause the second interrupted gear 151 to turn in a clockwise directionyturningwith it gear 151' in the same direction This will cause idler gear :1'6 1 to'be turned in a -contraclockwise direction and second idler gear-1'84 to be turned in a clockwise direction; thus turning the main rewind gear 111 in a'c'ontraclockwise direct on; and. through the rewind clutch, re: wind gear 316 and rewind-gear 31Iwillbe caused toturn in a contraclockwise direction. thus turning pinions 9'1 and 101 in a clockwise direction until the shutter is fully rewound. At this time, the-cam plate 146 will be in the positlon'shown in Fig. 1, and the bell crank 82 will be in the position shown in said figure, having justdropped ofi the cam 145, thus allowing the 'switch'21'2pto operate, openingthe clrcuitto the electricmotor. Just as the nose'82a of thebell crank:82"dropped off the cam face of cam 145, the rewind clutch was caused to be disengaged as previously-fully described, allowing rewind gear 316 and rewind gear 314 to turn a short distance in a clockwise direction until stopped by a the shutter release lever 250 engaging dog 333. The shutter is now ready for a second exposure. The mechanism will be positioned as shown inFig. l. The exposure aperture will have been establishedin the curtain all ready for making an exposure.

The operation of the shutter and cooperating parts as thus set forth is therefore very clearly distinguished from theelectrical control forfunctioningparts ofan aerial cameraset Iorth in an application filed inthe names of Louis .D. Nadel, Archie H. Gorey, Reynold J. Nitsch and. Oscar Steiner, now Patent No. 2,371,592, dated March 13, 1945, whereinthe shutterlis operatedmechanically for the making :of a picture through cyclingc mechanisrn. Therefore, there in was the shutter operation as the motor does not start to operate until the shutter has been operated and is entirely across the exposure aperture of the camera. Hence, it is impossible to have the cycle take place or even to begin before the shutter has traveled completely across the exposure opening of the camera. Therefore, no matter to how fast a speed the camera cycle is adjusted, it cannot in the present disclosure operate so fast that the shutter does not have time to travel all the way across the exposure opening of the camera, because the cycle cannot commence until the shutter has traveled all the way across the exposure opening, the rewind cycle being controlled from the shutter through the operating lever 233, co-acting with the dog 333 and the switch 225.

In the present disclosure there is provided a rue self-capping variable aperture shutter. The

shutter is always rewound in a capped condition and the exposure slot or aperture is established just as the shutter is completely rewound and before releasing it for an exposure. Such construction is therefore clearly distinguished from that shown in the patent to Petit and Hinelines, No. 1,980,546, dated November 13, 1934, wherein the exposure slot or aperture is adjusted by the operator ,prior to making an exposure and that exposure slot or aperture travels across the exposure opening both when making an exposure and when rewinding the shutter.

So far as I am aware, I believe that I am the first to provide any means to cause positively an increase in the size of the curtain exposure slot or aperture as the curtain travels across the exposure opening, thus compensating for the inevitable acceleration in the speed of the shutter curtain in its travel. As herein disclosed, I accomplish this result by providing curtain rewind rollers of contrasting diameter, as hereinbefore described. I thus cause the exposure slot or aperture to enlarge as said exposure slot or aperture travels across the exposure opening of the camera at a controlled rate of speed, the means for accomplishing this being the difference in size of the two-curtain rewind or take-up rollers. If one of said rollers is larger than the other, the former will feed off more curtain substance than the other, and if the larger roller pertains to the leading curtain, this will cause the exposure slot or aperture to enlarge in size. If, however, the larger rewind or take-up roller pertains to the second or following curtain, this will cause the exposure slot or aperture to become smaller during curtain travel.

This feature of compensating for the inevitable acceleration in the speed of the shutter curtain functions substantially simultaneously with the disclosed means for adjusting the size of the shutter exposure aperture prior to the release of the shutter. Both of the said features combine to provide for a perfect exposure. Notwithstanding the fact that an adjustment is made of the size of the aperture prior to the release of the shutter, there is still the tendency of one of the curtains to accelerate in speed, and it is the purpose of one of the features of my invention to overcome this, even when means are provided to adjust the size of the exposure opening prior to release of the shutter.

My invention herein claimed includes not only the means disclosed in Figs. 9 to 19, but also combinations of the same with other co-acting feaa photographic camera a two-curtain focal-plane shutter, each of the curtains whereof is provided withan exposure opening, together providing the exposure slot or aperture, and also provided with a take-up roller and a tension roller, operating means for said two-curtain shutter including releasing means, and including rewinding means acting to rewind the said curtains in aself-capping relation by mutually covering the exposure openings thereof, exposure slot-width adjusting, manually operable means for varying and predetermining the width of the exposure slot or aperture before the release of the shutter for exposure, and means co-acting with said exposure slot-width adjusting means at each such manual slot adjustment, to compensate for shutter acceleration.

Having thus described one illustrative embodiment of the invention, it is to b understood that although specific terms are employed, they are used in a generic and descriptive sense and not for purposes of limitation, the scope of the invention being set'forth in the following claims.

I claim:

1. In a shutter movement for photographic cameras, a focal plane shutter consisting of two, closely parallel, apertured curtains, the respective apertures whereof constitute the exposure aperture of the shutter, take-up and tension rollers for said curtains respectively, said takeup rollers having rewinding shafts with pinions thereon, means to release and means to rewind said curtains, and means to change the size of the said exposure aperture prior to shutter release, said rewinding means and said aperture-sizechanging means including a first curtain rewind gear 3M and a second curtain rewind gear 3l6, said rewind gears respectively meshing with said pinions on the rewinding shafts of the first curtain and the second curtain, the said second curtain rewind gear 316 having a hub 3, a latch plate 3l9 fast with said second curtain rewind gear 3l6, a clutch member H9 at one side of the first curtain rewind ear 3M, said first curtain rewind gear 3l4 having a drive pin 326 to be engaged by said clutch member N9, the said ourtain rewind gears 3M and 3I6, the clutch member H9 and the latch plate 3I9 having adjustable operative connections for rewinding the two curtains and for controlling the size of the exposure aperture, and a shutter setting knob 32I mounted loosely on the said hub 3H of the second curtain rewind gear 3|6 and having a formation to engage cooperatively a formation of the second curtain rewind gear 316.

2. A construction in accordance with claim 1, but wherein the first curtain rewind gear 3! is provided with a second pin 32'! on its face opposite to that carrying the drive pin 326, and wherein the said latch plate 3| 9 is provided with a segmental cut-out part 328, and wherein the said second curtain rewind gear 3l6 is provided with a segmental opening 329 in alignment with the segmental cut-out part 328, and wherein the said shutter setting knob 32l has a pin 330 extending through the said segmental opening 329 in said rewind gear 3| 6 into the said cut-out part 328 of the said latch plate 3| 9, so that said pins 321 and 336 may laterally engage each other in the said cut-out part 328 and said segmental opening 329, and wherein the said rewind gears 3M and 3 l 6 and the said latch plate 3 I 9 are co-axially mounted.

3. A construction in accordance with claim 1,

tures of. theshutter mechanism. It includes-in 76 butwherein thefirst curtain rewind gear 314 is provided with a second pin 32-! on its face opposite to that carrying the pin 326, and wherein the .said latch plate 3!9 is provided with a segmental cut-out part 328, and wherein the said second curtain rewind gear 3l6 is provided with a segmental opening 329 in alignment with said segmental cut-out part 328, and wherein the said shutter setting knob 32! has a pin 33!! extending through the said segmental opening 329 in said rewind gear 3|6 into the said cut-out part 328 of the said latch plate 3l9, so that said pins 32! and 330 may laterally engage each other in the said cut-out part 328 and said segmental opening 329, and wherein the said shutter setting knob 32! has a pin 33! laterally extending therefrom toward the adjacent face of the second curtain rewind gear M6, and wherein the said rewind gear 3; has a circumferentially arranged series of holes 332 for the selective reception, in any one of them, of the said pin 33! carried by the shutter setting knob 32!, and wherein the said rewind gears 3M and M6 and the said latch plate 3 9 are co-axially mounted.

4. A construction in accordance with claim 1, but wherein the first curtain rewind gear is provided with a second pin321on its face opposite to that carrying the pin 325, and wherein ,the said latch plate 3!9 is provided with a segmental cut-out part 328, and wherein the said second curtain rewind gear -3H5 is provided with a se mental opening 329 in alignment with said segmental cut-out part 328 and wherein the said shutter setting knob 32! has a pin 330 extending through the said segmental, opening 329 in said rewind gear 3!9 into the Said. cut-out part 328 of the said latch plate 319, so that said pins 32'! and 330 may laterally engage each other in the said cut-out part 323 and, said segmental opening 329, and wherein the said latch plate 319 has a dog 333, and wherein there is a shutter release lever 259 arranged to engage the said dog 333, thereby to hold; the said latch plate 3! 9 from turning movement, and wherein the said rewind gears 3M and'3'!6' and the said latch plate 3I9 are co-axially mounted.

5. A construction in accordance with claim 1, but wherein the first curtain rewind gear 3 is provided with a second pin 32! on its face opposite to that carrying the pin 325, and wherein the said latch plate '3l9 is provided with a segmental cut-out part 328, and wherein the said second curtain rewind gear 316 is provided with a segmental opening 329 in alignment with said segmental cut-out part 328, and wherein the said shutter setting knob 32!, has a pin 330 extending through the said segmental opening 329 in said rewind gear 3!6 into the said outout part 328 of the said latch plate 3|9, so that said pins 32! and 330 may laterally engage each other in the said cut-out part 328 and said segmental opening 329, and wherein the said shutter setting knob 32! has a pin 33! laterally extending therefrom toward the adjacent face of the second curtain rewind gear 316, and wherein the said rewind gear '3!6 has a circumferentially arranged series of holes 332 for the selective reception, in any one of them, of the said pin 33! carried by the shutter setting knob32l, and an index marker on the shutter setting knob 32!, the said specified construction and arrangement of parts permitting any desired exposure aperture to be secured by manual lateral movement of the said knob 32!, thus disengaging its pin 33! from that one of theseries of holes 332 in said second rewind gear 316 in which it was engaged, and then by manually turning the-said knob 32! until the said index marker is aligned with the desired shutter speed and by thereupon engaging the said pin 33! of the said knob 32! with the newly selected hole 332 in the second curtain rewind gear BIG, and wherein the said rewind gears 3M and 3H3 and the said latch plate 3! 9 are co-axially mounted.

6. In a shutter movement for photographic cameras, a focal plane shutter consisting of two, closely parallel, apertured'curtains, the respective apertures whereof constitute the exposure aperture of the shutter, take-up and tension rollers for said curtains respectively, said take-up rollers having rewinding shafts with pinions thereon, means to release and means to rewind said curtains, and means to change the size of the said exposure aperture prior to shutter release, said rewinding means and said aperture-sizechanging means including a rewind gear for the first curtain, a rewind gear for the second curtain, and driven from said first curtain rewind gear, said rewind gears respectively meshing with said pinions on the rewinding shafts of the first curtain and the second curtain, a shutter setting lrnob mounted loosely'on and manually'turnable with respect to the second curtain rewind gear, and having two laterally projecting pins to engage said second curtain rewind gear, the latter, for that purpose, having a segmentally shaped opening to receive one of said pins of said knob, and also having a series of spaced circumferentially extending formations with any one of which the other of said laterally projecting pins of the shutter setting knob may be engaged in the turning movement of the said knob, a drive-pin-like element on the said first curtain rewind gear, a clutch member to engage said drive-pin-like element, and means to impart rotative movement to said clutch member, said rewind gears for the two curtains, said knob and the. said clutch member having adjustable operative connections for rewinding the two curtains.

'7. In a shutter movement for photographic cameras, a focal plane shutter consisting of two, closely parallel, apertured curtains, the respective apertures whereof constitute the exposure aperture of the shutter, take-up and tension rollers for said curtains respectively, said take-up rollers having rewinding shafts with pinions thereon, means to release and means to rewind said curtains, and means to change the size of the said exposure aperture prior to shutter release, said rewinding means and said aperturesiZe-changing means including a rewind gear for the first curtain, a rewind gear for the second curtain and driven from said first curtain rewind gear, said rewind gears respectively mesh: ing with said pinions on the rewinding shafts of the first curtain and the second curtain, a shutter setting knob mounted loosely on and manually turnable with respect to the second cuttain rewind gear, having two laterally projecting pins to engage said second curtain rewind gear, the latter, for that purpose, having a segmen'tally shaped opening to receive one of said pins of said knob, and also having a series of spaced circumferentially extending formations with any one of which the other of said laterally projecting pins of the shutter setting knob may be, engaged in the turning movement of the said knob, a drive-pin-like element on the said firstcurtain rewind gear, and a main shutter drive gear having a shutter Trewlnd clutch member to engage--said.driveepin+1ike element-5i said rewind: gears forth-etwo curtains, :said knob 1 andytha said clutch ,membenhavlng adjustable operative connections for rewinding the two cur,- tains.

8. A construction in accordance with claim 6,?1 but wherein there is a second pin on the rewind geanforthe first curtain, and wherein there is alatchplate fast'with the rewind gear fonthe. second curtain and having:.-an arcuate slot, and whereinithe rewind gear for thesecondxcurtainr: has-a segmental opening in alignment. withrsaid: arcuate -slot,.and wherein thesaid 'shuttersetting knob has a pinextending, through'thetsaid segmental openingtinto'thearcuate slot of the latch; plate.

9. -A 'construction' in accordance with claim 6,

rbuthwhereinithere:is a secondpin on the rewind! gear fortheiirst curtain, andwherein there is a latch. plate fast with the rewind gear for the secondfcurt'ain and having an arcuate slot, and

wherein the rewind gear for-the -second curtainhas a segmental opening in alignment with said I arcuate slot, and a .circumferentially extendingseries of holes; and whereinthesaid-"shutter setting knob has apin extending through the said segmental opening into the arcuate slot of the latchplateyand wherein the said shutter settingknob also has a pin to engage, upon manual movement of said "shutter setting-1 knob,

any one-of "said series of "holes inthe rewind" wherein'fthe rewind gear for. .theesecond curtain hasa segmental opening/in alignment withsaid J arcuate slot, and a.circumferentiallyextending series of holes, and wherein the said shutter setsegmental. opening into the arcuate slot of the latch plate, and wherein thesaid-shutter setting knob also has apini to engage, upon manual movement of said shutter setting-knob, any one of said series of holes in the rewind gear for .the'

second curtain, and wherein the :said latch plate v has a dcg,::and whereinthere is ashutter release 1 lever arranged: to engage said dog, therebyto' hold said latch: plate from turning movement.

11. A constructioniinaccordancewwith claim-W6, but-wherein there is a-second pin onthe: rewind t gear ior the first curtain, and wherein there is 1 a latchplate fast with the rewind gear for-then secondcurtain and having-an arcuate slot; and wherein the rewind gear-for the second curtain has a segmental-opening in alignment with said arcuate 'slot; and; a 'circumfe'rentially extending series of holes, and wherein the said shutter setting knob has a pin extending through'the" said segmental'opening into the :arcuate slot of" the latch plate, and whereinthe said shutter" setting knob also has a pin to enga upon man ual movement 'oi'fsaid shutter setting knob,. any" one of said series of "holes in the rewind gear" forthe second curtain, the construction and arrangement. ofsaid Lparts being suchlthat anydetatlngthe saidknob and engaging said i pin with JIOei'them :havin the newly iselectediholeoithe series of holes in the said rewind gear. for the second curtain;

12. A.-,photographic "camera having, a focal, plane shutter consistingiof two; closely parallel, 5 first and second, cooperating, apertured curtains eachuhaving, a tensionrollerand a takeeup rolledfirst and second curtain rewind gears coeaxi-ally -i mounted .andin meshingrelation .withthe respec-x tiveatake-up irollersz-toferasaid; curtains and :oneeof '1", laterallyaprojecting.pin and the which saidz pinzis; received for movement therein, ina direction :circumferentially of the said rewind gears;ishutterirelease means and manually-oper- 1 15-; able exposure-slot width+adjustingmeans for 'predeterminedly varying sthea-width of the exposure :1 slot or aperture ibeforerthe release of the shutter for exposure, said. lastmentioned means .including 'ssaid rewind :gears i for 1 the two curtains and L" 2Qf-a1SO--1I1C1lidlng.'BFJShHttEY- SGttiHE knob manually turnable with respect to the second curtain rewind gear and th'avingmtwo laterally projecting pins,.one of which-is received in said segmentally shaped 'opening andthe other .of which-is var- 25;:5iably 'engageable with the curtain rewind gean having said segmentally shaped openingsaid first 1 curtainrewin'dgear having a laterally-extending driving formation, and rotatable means in op erative relation tosaid first curtain rewind gear- SO toengage :said driving formation, said. two re'-;

wind gears, saidknobcand said rotatable means 1 having adjustable operative connections for a rewinding the two curtains and forcontrolli'ng thesizeof the exposure aperture:

13.*In a'shutter movement for photographiccameras, a focalplane shutter consisting of two,

closely parallel, aperturedcur-tains, the respective apertures whereof 'con'stitute the exposure i aperture of the shutter, take-up and tension roll-" ers for said curtains respectively; means tore-' lease and means-to rewind said curtains, and means to change the size *of' the said exposure aperture prior to shutter release, said rewindin f means and said aperture-size-changing means including a-rewindgear for the firstcurtain, a

rewind gear forthe-second curtain, a rotatable shutter setting knobZ-said two rewind gears and-'- said knob beingco-axially 'rnounted, one of said 1 rewind gears having two'pin-Hke formations lat- "erally extending 'from opposite faces thereof, a main shutter rewind gear having associated means toengageina driving relation one of said v pin-like formationspf-such rewind gear; the r other of said'rewind gears having a series of circumferentially arranged openings therein, the i said shutter setting knob having two pin-like formations extending from the'inner face thereof, one of said formations beingadapted to enga e; any one of saidcirc'umferential openings and the other of said formations being adapted to engagein a driving'relationthe other of said pin-like" formationsof the rewind gear provided therewith.

1e. In'a shutter movement 'for photographic-f cameras, a foca'l'plane shutter consisting of two, closely paralleL'apertured curtains, the respec-=- tive apertures whereof constitute the exposure aperture of theshutte'r, take-up and tension. rollers for said curtains respectively, means to w,.,release and means to rewind said curtains, and means to change the size of the said exposure aperture prior toshutterflrelease, said rewind and "said aperture-'siZe-changing means including rewind gear for the first cure Eye -tam, a rewind gear for the second curtain, said ing means rewind gears being co-axially mounted and in meshing relation respectively with regard to the take-up rollers for the two curtains, a latch plate fast with the second curtain rewind gear and having an arcuate cut-out portion and a shutter setting knob co-axial with said rewind gears, said knob and said rewind gear for the second curtain having co-acting formations to hold said knob with respect to said rewind gear for the second curtain, the rewind gear for the first curtain and the shutter setting knob having respectively lateral projections extending into said cut-out portion of the latch plate and adapted laterally to engage each other in a holding relation in said cut-out portion, and having a dog-like radial projection, and a shutter release lever with which said radial projection is engageable to prevent movement of said second curtain rewind gear until said shutter release lever is disengaged from said radial projection.

15. In a shutter movement for photographic cameras, a focal plane shutter consisting of two, closely parallel, apertured curtains, the respective apertures whereof constitute the exposure aperture of the shutter, take-up and tension rollers for said curtains respectively, means to release and means to rewind said curtains, and means to change the size of the said exposure aperture prior to shutter release, said rewinding means and said aperture-size-changing means including a rewind gear for the first curtain, a rewind gear for the second curtain, said two gears being co-axially mounted, a rotatable shutter setting knob also co-axially mounted with said two rewind gears, the first curtain rewind gear having two pin-like formations laterally extending from opposite faces thereof, a main shutter rewind gear having associated means to engage in a driving relation one of said pin-like formations of said first curtain rewind gear, the second curtain rewind gear having a series of circumferentially arranged openings therein, the said shutter setting knob having two pinlike formations extending from the inner face thereof, one of said formations being adapted to engage any one of said circumferential openings and the other of said formations being adapted to engage in a driving relation one of the pin-like formations of the first curtain rewind gear.

16. A construction in accordance with claim 1, but wherein the first curtain rewind gear 314 is provided with a second pin 32'! on its face opposite to that carrying the drive pin 326, and wherein the said latch plate 319 is provided with a segmental cut-out part 328, and wherein the said second curtain rewind gear 316 is provided with a segmental opening 329 in alignment with said segmental cut-out part 328, and wherein the said shutter setting knob 321 has a pin 330 extending through the said segmental opening 329 in said rewind gear 316 into the said cut-out part 328 of the said latch plate 319, so that said pins 327 and 330 may laterally engage each other in the said cut-out part 328 and said segmental opening 329, and wherein the said latch plate 319 has a dog 333, and wherein the said rewind gears 314 and 316 and the said latch plate 319 are co-axially mounted, and wherein there is a shutter release lever 250, and wherein there is means to move said shutter release lever 25!] to permit turning movement of the latch plate 319.

17. In a shutter movement for photographic cameras, a focal plane shutter consisting of two,

closely parallel, apertured curtains, the respec tive apertures whereof constitute the exposure aperture of the shutter, take-up and tension rollers for said curtains respectively, said take up rollers having rewinding shafts with pinions thereon, means to release and means to rewind said curtains, said rewinding means including a first curtain rewind gear with means to rotate the same, a second curtain rewind gear, said rewind gears being co-axially mounted and re-' spectively meshing with said pinions on the rewinding shafts of the first curtain and the second curtain, said first and second curtain rewind gears having mutually co-acting, laterally extending, formations engageable with each other and which are circumferentially spaced to effect partial winding movement of the first curtain before winding movement of the second curtain is begun, thereby capping the two curtains, and thereupon to effect the continued winding of the two curtains in a self-capping relation until rewound and manually-operable, exposure-slot width-adjusting means for varying and predetermining the width of the exposure slot or aperture before the release of the shutter for exposure, said adjusting means including a shutter setting knob co-axial with and manually turnable with respect to said second curtain rewind gear, said shutter setting knob having two laterally-extending pins, one of which is engageable in a driving relation with said first; curtain rewind gear, and the second curtain rewind gear having a circumferentially arranged series of holes with any of which the other pin of said knob is engageable.

18. In a shutter movement for photographic cameras, a focal plane shutter consisting of two closely-parallel apertured curtains, the respective apertures whereof constitute the exposure aperture of the shutter, take-up and tension rollers for said curtains respectively, said takeup rollers having rewinding shafts with pinions thereon, first curtain and second curtain rewind gears respectively meshing with the pinions on the said rewinding shafts of the first curtain and second curtain, a rotatable shutter setting knob co-axially and loosely mounted with respect to said curtain rewind gears, one of said curtain rewind gears having two pin-like formations laterally extending from opposite faces thereof, a main shutter rewind gear in driving relation with said first curtain and second curtain rewind gears respectively, and having cooperatlngly as sociated means to engage, in a driving relation, one of said pin-like formations of such last mentioned rewind gear, the other of said curtain rewind gears having a series of circumferentially arranged openings therein, the said shutter setting knob having two pin-like formations extending from the inner face thereof, one of said formations of said shutter setting knob being adapted to engage any one of said circumferential openings of said other rewind gear and the other of said formations of the shutter setting knob being adapted to engage in a driving relation the other of said pin-like formations laterally extending from the said one of the rewind gears.

19. In a shutter movement for photographic cameras, a focal plane shutter consisting of two closely-parallel apertured curtains, the respective apertures whereof constitute the exposure aperture of the shutter, take-up and tension rollers for said curtains respectively, said take-up rollers having rewinding shafts with pinions thereon, first curtain and second curtain rewind gears respectively meshing with the pinions on the said rewinding shafts of the first curtain and second curtain, a rotatable shutter setting knob co-axially and loosely mounted with respect to said curtain rewind gears, one of said curtain rewind gears having two pin-like formations laterally extending from opposite faces thereof, a main shutter rewind gear in driving relation with said first curtain and second curtain rewind gears respectively and having cooperatingly associated means to engage in a driving relation one of said pin-like formations of such last mentioned rewind gear, the other of said curtain rewind gears having a series of circumferentially arranged openings therein and also having a cut-out part, the said shutter setting knob having two pin-like formations extending from the inner face thereof, one of said formations of said shutter setting knob being adapted to engage any one of said circumferential openings of said other rewind gear and the other of said formations of the shutter setting knob being adapted to engage in a driving relation the other of said pin-like formations laterally extending from the said one of the rewind gears.

20. In a shutter movement for photographic cameras, a focal plane shutter consisting of two closely-parallel apertured curtains, the respective apertures whereof constitute the exposure aperture of the shutter, take-up and tension rollers for said curtains respectively, said takeup rollers having rewinding shafts with pinions thereon, first curtain and second curtain rewind gears respectively meshing with the pinions on the said rewinding shafts of the first curtain and second curtain, a rotatable shutter setting knob co-axially and loosely mounted with respect to at least one of said curtain rewind gears, the first curtain rewind gear having two pin-like forma- 26 tions laterally extending from opposite faces thereof, a main shutter rewind gear in driving relation with said first and second curtain rewind gears respectively and having cooperatingly associated means to engage in a driving relation one of said pin-like formations of said first curtain rewind gear, the second curtain rewind gear- EDSON S. HINELINE.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 704,755 Orth July 15, 1902 709,079 Donitz Sept. 16, 1902 30 1,077,157 Pickard Oct. 28, 1913 1,204,154 Hora Nov. 27, 1916 2,122,671 Leitz et a1 July 5, 1938 2,136,148 Nuchterlein Nov. 8, 1988 2,184,016 Mihalyi Dec. 19, 1939 2,186,614 Mihalyi Jan. 9, 1940 2,218,248 Mihalyi Oct. 15, 1940 2,242,124 Hineline May 13, 1941 2,253,084 Mihalyi Aug. 19, 1941 2,257,012 Hineline Sept. 23, 1941 2,350,026 Fuerst May 30, 1944 

